1 / 19

Monitoring of Eyjafjallajökull Ash Layer Evolution over Payerne- Switzerland with a Raman Lidar

Monitoring of Eyjafjallajökull Ash Layer Evolution over Payerne- Switzerland with a Raman Lidar. Todor Dinoev, Valentin Simeonov*, and Mark Parlange Swiss Federal Institute of Technology –Lausanne (EPFL), Switzerland Bertrand Calpini MeteoSwiss – Payerne, Switzerland. Outlook.

hope
Download Presentation

Monitoring of Eyjafjallajökull Ash Layer Evolution over Payerne- Switzerland with a Raman Lidar

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Monitoring of Eyjafjallajökull Ash Layer Evolution over Payerne-Switzerland with a Raman Lidar Todor Dinoev, Valentin Simeonov*, and Mark Parlange Swiss Federal Institute of Technology –Lausanne (EPFL), Switzerland Bertrand Calpini MeteoSwiss – Payerne, Switzerland

  2. Outlook • General lidar principle • Raman lidar for water vapor, temperature and aerosol measurements • MeteoSwiss-EPFL lidar (RALMO –Raman Lidar for Meteorological Observation) • Eyjafjallajöekull ash layer observation • Conclusion

  3. Lidar principle R z I(z) P Spectral unit Laser A Telesccope

  4. Water vapor Laser Raman lidar N2 H2O O2

  5. Temperature and aerosol measurements by the PRR SEl

  6. RALMO design Lidar Windows Laser Beam Aerosol / Temperature Polychromator Water Vapor Polychromator Telescope array Beam Expander Laser Power Supply Laser 2005 mm Laser -400 mJ/pulse at 355 nm 30 Hz rep. rate Telescope-array of four 30 cm F#3 mirrors Polychromators- Grating based for water vapor and temperature Telescope / polychromators fiber coupled

  7. Fibers Output lens of the Beam Expander Fibers Mirrors Inside view Telescope T° Polychromator Telescope H2O Polychromator Laser

  8. RALMO specifications • Distance range 150 m-up to 5 km day/ 12km night • Temporal resolution 30 min (optional 10 min) • Spatial resolution - variable 15-300 m • Detection limit water vapor 0.05 g/kg • Temperature resolution 0.5 K • Aerosol extinction and backscatter coefficients at 355 nm • Statistical error < 10 % • Automatic operation and data treatment • Eye safe • Operation • Water vapor channel • -Experimental operation since 2007 • -Fully operational since 2008 • Temperature/aerosol channel operational since 2009

  9. Eyjafjallajöekull ash layer observations

  10. Backscatter/water vapor MR 16 April 17 April 18 April

  11. Backscatter/Relative humidity

  12. Backtrajectories

  13. Ash layer over Zurich Observation by ETHZ lidar (Thomas Peter)

  14. Mass concentration

  15. Conclusion • Automated water vapor lidar for meteorological applications developed • The lidar is in continuous operation from November 2007 at the aerological station of MeteoSwiss in Payerne. • The data is regularly intercompared with SnowWhite and RS 92 sondes microwave radiometer, and GPS measurements. • The lidar was upgraded with PRR channels for temperature, aerosol extinction and backscatter profiling • Appearance and evolution of volcanic ash layer observed • Optical properties measured and mass concentration estimated • Anti correlation between aerosol load and water vapor mixing ratio observed

  16. Thank you todor.dinoev@gmail.com or valentin.simeonov@epfl.ch

  17. Transciever RALMO Transmitter Nd:YAG laser 400 mJ & 355 nm 30 Hz rep. rate Beam expander 15 X Receiver Matrix telescope of four mirrors 30 cm in diameter 0.2 mrad FOV

  18. Time resolution - 10 min, Vertical resolution - 30 m up to 4 km No smooth or interpolation High pressure – Anticyclone Clouds, Rain ‘Rain stop’Clouds/Fog < 500 m

More Related